KR940010207B1 - Self-zeroing pressure transmitter with automatic pressure mainfold - Google Patents

Abstract

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Description

Pressure control signal transmission device and its operation method

1 is a block diagram of a pressure control signal transmission apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

10: drawing device 12: pressure transducer

14, 16: Input terminals 18, 22, 24, 32, 34, 40: Line

20 microprocessor 26 switching means

28, 36, 38: valve 30 pressurized manifold (manifoId)

P1, P2: pressure

[Industrial use]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pressure control signal transmission device, and more particularly, to a pressure control signal transmission device configured to automatically output a control signal according to a pressure difference to be transmitted and to increase the accuracy to an initial state.

[Traditional Technology and Problems]

In general, a two-wire analog transmission system includes a transmission device connected to a power supply by two wires to form a current loop. Such a transmission device is commonly known as a process variable (PV). A transducer is installed to detect conditions such as pressure or temperature.)

In such a transmission system, a current loop with a resistor is formed so that two wires are connected to a power supply together with a resistor to form a loop. The transmission device amplifies a signal from a converter and thus amplifies the signal. Is used to receive a current from the power supply that is proportional to or related to the process variable. Here, in the related art, a current of 4 mA to a maximum of 20 mA is supplied, and this current is passed through a resistor to cause a voltage drop, thereby making it possible to measure the process variable value.

At this time, the minimum current of 4 mA is used to activate the circuit of the transmitter, and the excess current of 4 mA or more is used to determine the process variable. In this case, the 4-20 mA two-wire system is 0.1% or more in accuracy. Since there is a tolerance and difficult to control, it is a unidirectional transmission method in which data is continuously transmitted. Therefore, only a continuous reading and detection of process variables is possible in terms of function.

[Purpose of invention]

The present invention was invented by winding the above points, and by configuring a current loop with equipment such as a computer or a hand held terminal, the digital signal can be sent anywhere, allowing the operator to check or change the transmission parameters. The purpose of the present invention is to provide a pressure control signal transmission device in which a pressurized manifold is formed integrally so that the equipment can be operated at a point other than that where the transmitter is installed, and to automatically restore the initial state to increase the accuracy of the transmitter. have.

In addition, the present invention is to close the valve installed on the low pressure first pressure line in the state of opening the valves installed in the high pressure second pressure line and the connecting line, while the first and second in the state of closing the valve installed in the connecting line In addition to providing an automatic reduction method to the initial state of the pressure control signal transmission device to open the valve installed in the pressure line, the pressure control can be manufactured at a low cost as well as to simplify the complicated structure of the related art. The purpose is to provide a signal transmission device.

[Configuration of Invention]

The pressure control signal transmission device according to the present invention for achieving the above object is provided with two input terminals exposed to each pressure and generating a signal corresponding to the difference between the pressure and the valve is provided First and second pressure lines connected to two input terminals of the transducer to transfer the respective pressures, connecting lines having valves installed therebetween and connected to the first and second pressure lines, and the first and second pressure lines. While the valves of the connecting line are open to equalize the pressure between the pressurizing lines, the two valves respectively installed on the first and second pressurizing lines are closed, while the respective lines While the valve is closed, it is provided with the switching means which open each valve provided in the said 1st and 2nd pressure line.

[Action]

In the present invention configured as described above, the pressurized manifold is used to reduce the initial state of the transducer having two input stages so as to receive the respective pressures, while the transducer outputs a signal according to the pressure differential. In the same case, an initial value or a set value signal is output.

EXAMPLE

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of the present invention, in which the transmitter 10 has two input terminals 14 and 16 for receiving two different pressures P1 and P2, respectively, and the pressures P1, A differential pressure transducer 12 (or pressure sensor) is provided to supply the line 18 with a signal corresponding to the difference between P2).

In addition, the transmission device 10 includes a microprocessor 20 such as Motorola's 6800 or 80C51, which receives a signal to the line 18 and outputs a signal to the line 22 to be used in a two-wire current loop; Or other control circuits).

At this time, the microprocessor 20 is connected to the switching means 26 via the line 24, and the switching means 26 is a pressurized manifold such as a remotely operated manifold of Anderson Greenwood. It is installed in (30). The first pressure line 32 transfers the pressure p1 to one input end 14 of the pressure transducer 12, and the second pressure line 34 receives the other input end 16 of the pressure transducer 12. Delivers the pressure (p2). Here, the first and second pressurization lines 32 and 34 are installed to pass through the pressurized manifold 30, and the first and second valves 36 and 38 are pressurized by the first and second pressurization lines. It is provided in the furnace tracks 32 and 34, respectively. In addition, the connection line 40 having the equalization valve 28 is installed between the first and second pressure lines 32 and 16 between the input terminals 14 and 16 of the pressure transformer 12 and the valves 36 and 38. 34) are connected to each other.

In such a structure, the switching means 26 actuates to open the valves 36 and 38 while closing the equalizing valve 28 in response to a signal from the microprocessor 20 via the line 24. When the pressure (P1) and the pressure (P2) is applied to the input stage (! 4, 16) of the pressure transducer 12, the pressure transducer 12 outputs a signal to the microprocessor 20 through the line 18 Done. Here, if the pressure transducer 12 is drifted to an initial state or exceeds a preset duration interval, a predetermined signal is applied to the switching means 26 from the microprocessor 24 via the line 24. To close the valve 36 and open the equalization valve 28. Accordingly, the relatively low pressure P1 is blocked, and the first and second pressure lines 32 and 34 and the connection line 40 are closed. ) Is formed and connected to the pressure transducer 12 so that the pressures of the first pressure line 32 and the second pressure line 34 are automatically equalized. At this time, the signal input from the pressure transducer 12 through the line 18 is processed by the microprocessor 20 as a signal indicating that the pressure transducer 20 is in the initial state, the transmission as described above Recalibration of the device 10 takes place.

Next, after sufficient time has passed for the pressure equalization of the first and second pressure lines 32 and 34 to pass, a control signal is applied to the switching means 26 to the line 24 to provide the equalization valve 28. The valves 36 and 38 are opened at the same time as the valve is closed, so that a signal corresponding to the difference between the pressure P1 and the pressure P2 is output from the pressure transducer 12 through the line 18.

Although the embodiments of the present invention have been described in detail above, it is obvious that various modifications can be made without departing from the technical gist of the present invention.

Claims (5)

A pressure transducer 12 having two input stages 14 and 16; A first pressurizing line 32 connected to one input end 14 of the two input ends 14 and 16 and provided with a first valve 36; A second pressure line 34 connected to another input end 16 of the two input ends 14 and 16 and provided with a second valve 38; The uniform valve 28 connects the first pressure line 32 and the second pressure line 34 at a predetermined point between the first and second pressure lines 32 and 34 and the pressure transducer 12. An installed connection line 40; The first and second pressure lines 36 and 38 and the equalization valve 28 are connected to each other to close the equalizing valve 28 and open the first valve 36 according to a predetermined control signal. Switching means configured to open the equalization valve 28 and close the first valve 36 so that the pressure between the first pressure line and the second pressure line 34 is equalized according to another predetermined control signal ( 26) and; The pressure transducer 12 is connected to the pressurized manifold 30 including the first and second pressure lines 32 and 34, the connecting line 40, the valves 28, 36 and 38, and the switching means. And a microprocessor 20 connected to receive the signal from the pressure transducer 12 and to generate and output the two control signals to the switching means 26. Transmission device. 2. The pressure control signal transmission apparatus according to claim 1, wherein the microprocessor (20) outputs a predetermined signal to a line (22) used as a two-wire current loop. The pressure control signal transmission device according to claim 1, wherein the microprocessor (20) is a Motorola 6800 processor. The pressure control signal transmission device according to claim 1, wherein the pressure manifold is a remote operation manifold. In order to equalize the pressure between the first and second pressure lines (32, 34), the external pressure transmitted to the two pressure lines (32, 34) and the passage between the pressure transducer 12 is blocked In addition to opening the passage between the two pressure lines (32, 34), when the passage between the two pressure lines (32, 34) is opened, the signal output from the pressure transducer 12, The measured signal is used as a control signal for controlling both input terminals 14 and 16 of the pressure transducer 12 to be equal in pressure with each other.

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